Highly Efficient OLEDs
Materials Based on Thermally Activated Delayed Fluorescence
1. Auflage November 2018
608 Seiten, Hardcover
1 Abbildungen (1 Farbabbildungen)
Monographie
ISBN:
978-3-527-33900-6
Wiley-VCH, Weinheim
Kurzbeschreibung
Edited by a pioneer in this fast developing field, the book compiles the latest results in OLED optimization. It discusses in detail the theoretical principles as well as various emitting materials, both organic and inorganic, along with display and lighting applications.
Weitere Versionen
Dieses Fachbuch eines Pioniers in diesem schnell wachsenden Fachbereich fasst die jüngsten Erkenntnisse zur Optimierung von OLEDs zusammen. Die Theorie wird ausführlich beschrieben, ebenso verschiedene organische und anorganische emittierende Materialien, Display- und Lichtanwendungen.
TADF material design - Photophysical background and case studies focusing on Cu(I) and Ag(I) complexes
Highly efficient solution-processed organic light emitting diodes
TADF kinetics and data analysis in photoluminescence and electroluminescence
Efficiency enhancement of OLEDs exhibiting delayed fluorescence and non-isotropic emitter orientation
TADF materials based on donor-acceptor molecular systems
Highly emissive d10 metal complexes as TADF emitters
The role of vibronic coupling for intersystem crossing and reverse intersystem crossing rates in TADF molecules
Intersystem crossing processes in TADF emitters
Photophysics of TADF
Molecular design and synthesis of metal complexes as emitters for TADF-type OLEDs
Ionic Cu(I) TADF complexes and their use in OLEDs
Highly luminescent dinuclear copper complexes with short intra-molecular Cu-Cu distances
Novel TADF materials Thioxanthone derivatives and their application in OLEDs
Solution Processed TADF Materials and Devices
Status and next steps of TADF technology - An industrial perspective
Highly efficient solution-processed organic light emitting diodes
TADF kinetics and data analysis in photoluminescence and electroluminescence
Efficiency enhancement of OLEDs exhibiting delayed fluorescence and non-isotropic emitter orientation
TADF materials based on donor-acceptor molecular systems
Highly emissive d10 metal complexes as TADF emitters
The role of vibronic coupling for intersystem crossing and reverse intersystem crossing rates in TADF molecules
Intersystem crossing processes in TADF emitters
Photophysics of TADF
Molecular design and synthesis of metal complexes as emitters for TADF-type OLEDs
Ionic Cu(I) TADF complexes and their use in OLEDs
Highly luminescent dinuclear copper complexes with short intra-molecular Cu-Cu distances
Novel TADF materials Thioxanthone derivatives and their application in OLEDs
Solution Processed TADF Materials and Devices
Status and next steps of TADF technology - An industrial perspective
Hartmut Yersin is professor in Physical Chemistry at the University in Regensburg, Germany. His research activities focus on the development of new emitter materials, transition metal complexes and electroluminescent devices as well as on fundamental photophysical characterizations.
He has authored more than 250 scientific publications as well as edited seven books. Furthermore, he holds more than 50 patents.
He has authored more than 250 scientific publications as well as edited seven books. Furthermore, he holds more than 50 patents.
